後藤研究室

Goto Geotechnical Laboratory

Department of Civil and Environmental Engineering

Faculty of Engineering
(Integrated Graduate School of Medicine,Engineering, and Agricultural Sciences)

University of Yamanashi

ギャラリー

University Faulty member
Associate Professor Satoshi　GOTO　

Doctor of Engineering，
Professional Engineer　(P.E.Jp)　Civil Engineering（Soil Mechanics & Foundation）
- (Undergraduate Programs)
  Department of Civil and Environmental Engineering
  Faculty of Engineering
  University of Yamanashi
  
  (Master's Programs)
  Civil and Environmental Engineering Course
  Department of Engineering
  Integrated Graduate School of Medicine, Engineering, and Agricultural Sciences
  University of Yamanashi
  
  (Doctoral Programs)
  Civil and environmental engineering field
  Natural, Biotic and Social Environment Engineering
  Integrated Graduate School of Medicine, Engineering, and Agricultural Sciences
  University of Yamanashi
  
  From a practical and international point of view, we are conducting research on the mechanisms of geotechnical disasters caused by earthquakes, rainfalls, volcanic eruptions, heavy snow, etc. and studies on disaster prevention in collaboration with students!
  Goto’s laboratory has a lot of opportunities to go to a geotechnical disaster site to explore the causes of the disaster. If you are interested in Goto’s laboratory, please contact us via e-mail to goto(at)yamanashi.ac.jp .
- Researcher Information
  researchmap
  Google Scholar
  
  Postal address：
  〒400-8511, 4-3-11 Takeda, Kofu, Yamanashi pref.　
  Department of Civil and Environmental Engineering, Faculty of Engineering, University of Yamanashi
  
  Mailing address:
  goto(at)yamanashi.ac.jp

Educational background and employment history

1982.4.	Master Course, Departmrnt of Civil Enginering, Graduate School of Engineering, The University of Tokyo
1987.4.	Doctor Course, Departmrnt of Civil Enginering, Graduate School of Engineering, The University of Tokyo
1987.3.	Doctor of Engineering, The University of Tokyo
1987.4.	TAISEI Corporation, Technology Research Center
1990.4.	Imperial College, Geotechnics　Academic Visitor　（1990.4-1991.8)
1993.4.	TAISEI Corporation, Trans-Tokyo Bay Highway Projects　(1993.4-1995.4)
1998.4.	Associate Professor, Department of Civil and Environmental Engineering, Faculty of Engineering, University of Yamanashi

Award history
　　1993年　Award for Outstanding Young Researcher of Japanese Geotechnical Society
　　2008年　The Distinguished Service Award , Japanese Geotechinical Society
AFFILIATED ACADEMIC SOCIETY
Japan Society of Civil Engineers The Japanese Geotechnical Society the Japan Landslide Society the Japan Society of Erosion Control Engineering　The Volcanological Society of Japan 　Geological Society of Japan the Seismological Society of Japan Japan Society of Engineering Geology Japan Society for Natural Disaster Science Japanese Geomorphological Union The Japanese Society of Snow and Ice

Papers・Books
Recent reviewed papers
1. Ngoc Ha Do, Satoshi Goto, Shinro Abe, Kim Thanh Nguyen, Toyohiko Miyagi, Kazunori Hayashi, Osamu Watanabe(2022): Torrent rainfall-induced large-scale karst limestone slope collapse at Khanh waterfall, Hoa Binh Province, Vietnam, Geoenvironmental Disasters, 9, 4, pp. 1-20, 2022/2/21. https://doi.org/10.1186/s40677-022-00206-5
2. Takeyasu SUZUKI, Takumi ITO, Satoshi GOTO(2021): Development and implementation of a real-time sediment disaster alert system, WIT Transactions on The Built Environment, 206, 12, pp. 69-80, 2021/12/7. https://doi.org/10.2495/safe210061
3. 関悠花里, 北爪貴史, 遠藤秀祐, 佐藤恭兵, 阿部峻大, 西村聡, 後藤聡(2021): CA/MA法による富士山北麓スラッシュ雪崩のパラメトリック・スタディ, 第1回応用斜面工学シンポジウム論文集, 1, 1, pp. 25-28.
4. 遠藤秀祐, 北爪貴史, 関悠花里, 佐藤恭兵, 阿部峻大, 西村聡, 後藤聡(2021): CA/MA法による土砂流動シミュレーション・ツールの基礎的検討, 第1回応用斜面工学シンポジウム論文集, 1, 1, pp. 21-24.
5. M. L. Istiyanti, S. Goto, H. Ochiai(2021):Characteristics of atuff breccia-andesite in diverse mechanisms of landslides in Oita Prefecture, Kyushu, Japan, Geoenvironmental Disasters, vol. 8. https://doi.org/10.1186/s40677-021-00176-0
6. I. Towhata, T. Akima, S. Goto, S. Goto, J. Tanaka, S. Aoyama(2021):Geologic and Hydrologic Investigations on Slope Failures Triggered by Extreme Rainfall on Izu Oshima Island, Japan, vol.4, pp.121-130. https://doi.org/10.1007/978-3-030-60713-5_12
7. S. Goto, K. Okada(2021):Monotonic and Cyclic Behaviour of Tephra Layer Landslide at Takanodai from the 2016 Kumamoto Earthquake, WLF 2020: Understanding and Reducing Landslide Disaster Risk, vol.4, pp.357-364. https://doi.org/10.1007/978-3-030-60706-7_36
8. T. Kitazume, T. Abe, S. Goto(2021):Numerical simulation of deblis flows after ash fall at Mt.Fuji, WLF 2020: Understanding and Reducing Landslide Disaster Risk, WLF 2020: Understanding and Reducing Landslide Disaster Risk, vol.4, pp.281-292. https://doi.org/10.1007/978-3-030-60706-7_27
9. M. L. Istiyanti, S. Goto, T. Kimura, G. Sato, S. Hayashi, A. Wakai, D. Higaki(2020): Sliding layer estimation of shallow landslides on Aso volcanic mountains in Japan based on tephra layer-physical properties of soil, Geoenvironmental Disasters. https://doi.org/10.1186/s40677-020-00163-x
10. 岡田健杜・後藤聡(2020):2018年北海道胆振東部地震における樽前d降下火砕堆積物の定体積繰返し一面せん断特性, 第10回土砂災害に関するシンポジウム論文集, pp. 225-230, September, 2020.
11. I. Towhata, S. Goto, S. Goto, A. T., J. Tanaka, T. Uchimuta, G. Wang, H. Yamaguchi, S. Aoyama(2020):Mechanism and future risk of slope instability induced by extreme rain-fall event in Izu Oshima Island, Japan,Natural Hazards. https://doi.org/10.1007/s11069-020-04321-0
12. M. L. Istiyanti, S. Goto(2020):Differences of physical properties between tephra and tuff breccia-andesite on sliding layer and surrounding layers of landslides, Proceedings of the 10th Symposium on Sediment-Related Disasters(第10回土砂災害に関するシンポジウム論文集), pp.31-36,September, 2020.
13. D. HIGAKI, X. LI, I. HAYASHI, C.-Y. TSOU, T. KIMURA, S. HAYASHI, G. SATO and S. GOTO(2019):Geomorphological setting of shallow landslides by heavy rainfall on tephra-covered slopes of Aso Volcano, southwest Japan, Journal of the Japan Landslide Society, Vol.56, Special Issue July 2019, pp.218-226. https://doi.org/10.3313/jls.56.218 (in Japanese with English abstract)
14. T. KIMURA, S. GOTO, G. SATO, A. WAKAI, S. HAYASHI and D. HIGAKI(2019):Evaluation of landslide susceptibility by slope stability analysis using an estimated distribution of tephra deposits－A case study in the northeastern part of Aso caldera－, Journal of the Japan Landslide Society, Vol.56, Special Issue July 2019, pp.240-249. https://doi.org/10.3313/jls.56.240 (in Japanese with English abstract)
15. A. WAKAI, K. HORI, A. WATANABE, F. CAI, H. FUKAZU, S. GOTO and T. KIMURA(2019):A simple prediction model for shallow groundwater level rise in natural slopes based on finite element solutions, Journal of the Japan Landslide Society, Vol.56, Special Issue July 2019, pp.227-239. https://doi.org/10.3313/jls.56.227 (in Japanese with English abstract)
16. G. SATO, A. WAKAI, S. GOTO and T. KIMURA(2019):Strength characteristics of gravitationally deformed slope deposits of tephra and kuroboku soils in the Aso caldera, Japan －Application of revised vane-shear-cone test for estimating shear strength－, Journal of the Japan Landslide Society, Vol.56, Special Issue July 2019, pp.250-253. https://doi.org/10.3313/jls.56.250 (in Japanese with English abstract)
17. S. GOTO and T. KIMURA(2019):Introduction of the special issue on "Toward the prediction of shallow landslides induced by heavy rainfalls on tephra-covered slopes", Journal of the Japan Landslide Society, Vol.56, Special Issue July 2019, pp.1-7. https://doi.org/10.3313/jls.56.211 (in Japanese)
18. K. Okada, S. Goto, M. L. Istiyanti(2019):Cyclic behavior of volcanic soil in earthquake-induced slope failure, Proc. of the Technical Forum on Mitigation of Geo-disasters in Asia, pp.152-155.
19. T. Kitazume, S. Goto(2019):The effects of uncertainty of soil properties on the estimation of seismic ground settlements for unsaturated sandy soils, Earthquake Geotechnical Engineering for Protection and Development of Environment and Constructions ? Silvestri & Moraci (Eds), Associazione Geotecnica Italiana, Rome, Italy, ISBN 978-0-367-14328-2, pp.3362-3370.
20. M. L. Istiyanti, S. Goto, H. Ochiai(2019):A characterization of the physical properties and the effects of clay on soil material at landslide in Yabakei, Oita, Japan, Proc. of the Technical Forum on Mitigation of Geo-disasters in Asia, pp.51-55.
21. M. L. Istiyanti, S. Goto(2018):Physical and chemical properties of slip surface in landslides triggered by heavy rainfall at Hita, Oita, Japan, Proceedings of the 9th Symposium on Sediment-Related Disasters(第9回土砂災害に関するシンポジウム論文集) , pp.67-71, September 18-19, 2018.
22. H. OCHIAI, M. SAKURAI, D. HIGAKI, S. GOTO, A. WAKAI, H. FUKUOKA, S. NAKAMURA and S. KIMURA(2017):Landslide disasters induced by the Northern Kyushu heavy rainfall in July 2017, Journal of the Japan Landslide Society, Vol.54, No.5, pp.225-228. https://doi.org/10.3313/jls.54.225 (in Japanese)
23. Sato,G., Goto,S., Kimura,T., Hayashi,S., Istiyanti,M.L. and Komori,J.(2017):Gravitational deformation as a precursor of shallow landslide within tephra-covered slope deposits in Aso caldera, Japan, Journal of Japanese Landslide Society, Vol.54, No.5, pp199-204. https://doi.org/10.3313/jls.54.199 (in Japanese with English abstract)
24. M. L. Istiyanti, S. Goto(2017):Clay minerals effects in shallow landslide at Takadake area, Aso Mountain, Kumamoto, Japan, JTC1 workshop on advances in landslide understanding, Barcelona, Spain, pp.89-92, May 24-26.
25. A. Wakai, F. Cai, S. Goto(2016):Centrifuge modelling for rainfall-induced shallow failures in natural slopes, Proc. 2nd Asian Conference on Physical Modelling in Geotechnics (Asiafuge-2016), pp.268-273, Shanghai, Nov.20-Dec.2, 2016.
26. A. Wakai, S. Goto(2016):Initial Trigger for Slope Failures in Volcanic Ash Layer of Hillside Surface in Izu-Oshima Island in Japan Due to a Typhoon Rainfall in 2013, Geotechnical Hazards from Large Earthquakes and Heavy Rainfalls, pp.3-16, (First Online: 02 September 2016). https://doi.org/10.1007/978-4-431-56205-4_1
27. Kimura,T., Goto,S., Sato,G., Wakai,A., and Doshida,S.(2016): Thickness distribution of pyroclastic fall layers on outer slopes of caldera rim, Izu Oshima Volcano, Journal of the Japanese Landslide Society, Vol.53, No.2, pp.43-49. https://doi.org/10.3313/jls.53.43 (in Japanese with English abstract)
28. T. KITAZUME, S. GOTO, K. ARAKI, H. SATO and M. SATO(2015):INFLUENCE OF DRY DENSITY AND WATER CONTENT IN UNSATURATED SANDY SOIL ON THE ESTIMATION OF SESMIC GROUND SETTLEMENT, 土木学会論文集A1, 71, 4, pp.I_953-I_962. https://doi.org/10.2208/jscejseee.71.I_953 (in Japanese with English abstract)
29. 藤森弘晃・荒木功平・後藤聡・北爪貴史(2015):振動台を用いた地震動による不飽和地盤の破壊形態に関する実験的考察, 第11 回環境地盤工学シンポジウム発表論文集, pp.17-22.
30. G. SATO, J. KOMORI, T. CHIBA, S. GOTO, H. KISHIMOTO and K. HAYASHI(2015):Sediment transport processes induced by Typhoon No.26 in 2013 along the Omiya-sawa River basin in Izu-Oshima Island, Japan, Journal of the Japan Landslide Society, Vol.52, No.5, pp.255-260. https://doi.org/10.3313/jls.52.255 (in Japanese with English abstract)
31. G. FURUYA, T. HATA, N. WATANABE, S. GOTO, I. DOI and I. KAWASAKI(2015):Outline of landslide disasters caused by destructive earthquake in the northern part of Nagano Prefecture on November 22, 2014, Journal of the Japan Landslide Society, Vol.52, No.1, pp.40-44. https://doi.org/10.3313/jls.52.40 (in Japanese)
32. T. KITAZUME, S. GOTO, K. ARAKI, H. SATO, M. SATO(2015):Volumetric compression characteristics of unsaturated sandy soils under cyclic shear for estimation of settlement, 6th International Conference on Earthquake Geotechnical Engineering, New Zealand, 1-4, November.
33. A. Wakai, S. Goto(2014):Fundamental study on large-scale slope failures in the volcanic ash soil hillside induced by heavy rainfall in Japan, Proc.International Symposium on Geohazards: Science, Engineering, and Management, pp.201-211, Kathmandu, Nov.20-21, 2014.
34. 荒木功平・鈴木雄祐・後藤聡(2014):富士山林道における融雪時の道路陥没とスコリアの土質工学的性質に関する研究, 土木学会論文集G (環境)，(公社)土木学会, 70, 5, pp. I_177-I_182. https://doi.org/10.2208/jscejer.70.I_177 (in Japanese with English abstract)
35. 後藤聡・内山高・中山俊雄・和田里絵・安藤伸(2014):山梨県の地盤, 新・関東の地盤，地盤工学会関東支部編. 関東の地盤地盤情報データベース付（2014年度版), pp.149-157.
36. A. Wakai, S. Goto(2014):Initial Trigger for Slope Failures in Volcanic Ash Layer of Hillside Surface in Izu-Oshima Island in Japan due to a Typhoon Rainfall in 2013, Sixth Japan-Taiwan Joint Workshop on Geotechnical Hazards from Large Earthquakes and Heavy Rainfalls. https://doi.org/10.1007/978-4-431-56205-4_1

The main books

知っておきたい斜面のはなしQ＆A－斜面と暮らす－　（分担）土木学会地盤工学委員会斜面工学研究小委員会　編集委員会委員長

わかる土質力学220問　基礎から公務員試験までナビゲート　（分担）理工図書

家族を守る斜面の知識～あなたの家は大丈夫？～　（分担）土木学会地盤工学委員会斜面工学研究小委員会　編集委員会委員長

地盤材料試験の方法と解説地盤工学会　（分担）編集委員会委員長

Supervised doctoral dissertation
■　Yanyan Agustian (2009):The Stress-Strain Behavior of Scoria in Triaxial Compression

Agustian,Y., Goto, S. (2008)：" Undrained cyclic shear behavior of reconstituted scoria deposit,” Soils and Foundations, Vol.48, No.6, pp.851-857.

Agustian,Y., Goto, S.(2008)："Strength and Deformation Characteristics of Scoria in Triaxial Compression at Low Confining Stress,” Soils and Foundations, Vol.48, No.1, pp.27-39.

■　北爪貴史(2016):不飽和砂質地盤の地震時沈下特性に関する研究

北爪貴史・後藤聡・荒木功平・佐藤博・佐藤正行(2015)：不飽和砂質土における乾燥密度および含水比のばらつきが地震時地盤沈下量推定に与える影響(2015年9月)，土木学会論文集A1(構造･地震工学), Vol.71, No.4, pp.Ⅰ_953-Ⅰ_962.

Main academic activities

2002年5月～2011年5月　　（公社）土木学会地盤工学委員会斜面工学研究小委員会委員長
2015年5月～2017年5月　　（公社）土木学会地盤工学委員会委員長
2016年11月～　　　　　　（公社）土木学会社会支援部門減災・防災委員会委員
2005年1月～2007年3月　　（公社）地盤工学会基準部土質試験規格：基準委員会委員長
2007年5月～2009年5月　　（公社）地盤工学会理事総務部長
2010年6月～2014年6月　　（公社）日本地すべり学会理事専務理事
2014年6月～2016年6月　　（公社）日本地すべり学会理事副会長
2016年4月～　　　　　　　（公社）砂防学会関東支部　運営委員

Main social activities

2017年4月～	国土交通省　関東地方整備局　道路防災ドクター
2018年1月～	国土交通省　中部地方整備局　道路防災ドクター
2010年4月～	国土交通省　関東地方整備局　甲府河川国道事務所　総合評価審査分科会委員
2010年4月～	国土交通省　関東地方整備局　富士川砂防事務所　総合評価審査分科会委員
2006年10月～	国土交通省　中部地方整備局　富士山火山砂防計画検討委員会委員
2016年6月～	山梨県　環境保全審議会委員
2014年12月～	山梨県　環境影響評価等技術審査会委員
2013年4月～	山梨県　収用委員会委員
2011年4月～2015年3月	山梨県　防災会議専門部会（地震部会）委員
2006年7月～	山梨県　土砂災害発生警戒避難基準検討委員会委員長